This question quotes from this [article], but I've noticed this pattern in the literature I've read.
>"The values or
better the leading coefficients at integral arguments of the L-functions of algebraic varieties over number fields seem to be closely related to the global arithmetical geometry of these varieties"
That is, the Riemann zeta function takes on special values
$$ \zeta(2n)=\mathbb{Q}^\times\times\pi^{2n} \quad \zeta(1-2n)\in\mathbb{Q}^\times $$
for $n\in\mathbb{Z_{>0}}$. The Dedekind zeta function of some number field has a special value at the residue on $s=1$, and etc. etc. up to theory I consider to be cutting edge, e.g. the Beilinson Conjectures and so on. I've even noticed *half-integer* arguments, but nothing more complicated than that.
**Question**: Is there any research on the zeta function, Riemann or otherwise, at non-integral values?
[article]: https://ivv5hpp.uni-muenster.de/u/pschnei/publ/pap/beilin.pdf